@Lews - I meant in the bottom part. Where those bottom two triangles meet is the same as that intersection. The "third" triangle of that first image is the reason for splitting them up because it throws off the calculation.
That third triangle is not part of the area between those two lines
That isn't the outside triangle though, it is part of the area under the curve formed by the first 2 red dots. The yellow area is the area under the curve formed by the two black dots. Because the x1 and x2 values of both pairs of dots are the same, you can compare their areas under their respective curves. The difference of those areas is the area between the two.
How can I explain it.. there is a "lower area" and an "upper area". If I was to pick an area formed between the two brown lines I am calculating something wrong.
@HansRudel Finding the intersect is one line of code compared to using the matrices soln :P
I had to draw a lot of stuff on paper to verify that the intersect had to be found at one point. I am pretty sure that it can't be done in one pass but must be broken into two pieces at the intersect point.
@TravisJ maybe im missing something here, but is it not just a matter of takin point 1 on both curves, find out which is higher. then take point 2 on both curves and if the highest at point one isnt still the highest a crossover occured?
Yeah, the way to find that point is to solve the two equations by setting them equal and finding the x-intercept then plugging that value back into either equation to find the y-intercept of the two.
@LewsTherin that long equation u pasted in above, the first 3 terms are the point on the y-axis where the first line intercept it. next 3 are the same but for the other line
I can look at a projected screen for 8 hours and my eyes wont get strained or require me to squint. I can look at a regular monitor for like 2 hours and have to start squinting from eye strain.
@Lews - Ill bet you get migraines because you are staring into a LCD light the whole time. With a projector, another difference is that you are always looking at reflected light, not direct light.
Is the quality good for movies, gaming and the likes.. The reason I hate projector is because of the trapezoid shape on the wall.. how do you avoid that?
Shoot it straight out and it will form a nice square (rectangle) box. If the box is too large on the left, then rotate the projector right. If the box is too large on the top, then aim it down.
Any vid card works, it connects with the plain monitor hook
This one at work is on a $300 emachines desktop and looks great lol
I was looking online, and I guess the reason the assumption breaks if there is an intersection is because you are calculating the difference of areas between a top and lower boundary. At the point of intersection the top boundary becomes what was the lower boundary - in this case the lower function. That swap is what throws off the comparison.
Also, it can often be difficult to determine which of the functions is the upper function and which is the lower function without a graph. This is especially true in cases like the last example where the answer to that question actually depended upon the range of x’s that we were using.
The whole page talks about finding the upper and lower function associated with regions. There are places where the upper and lower function switch, and the upper becomes the lower one at a given x value. At that point, they point out that a new integral must be used.
Yeah, I had to take that class being taught by someone who didn't care about his students with a TA that barely spoke english. Barely passed, and like 80% of the class failed
Definitely hard to find good teachers in math and science. Many of them are good mathematicians and scientists, but not very good at conveying their knowledge.